热辐射和变内热影响下耗散卡森-卡罗纳米流体在多孔介质中拉伸薄片上的磁流体动力学流动

G. Sobamowo, O. Adesina, L. Jayesimi
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引用次数: 2

摘要

本文采用有限差分法研究了热辐射、倾斜磁场和温度相关内部发热对耗散Casson-Carreau纳米流体在嵌入多孔介质的拉伸片上的非定常二维流动和传热的综合影响。在这项研究中,煤油被用作嵌入银(Ag)和铜(Cu)纳米颗粒的基础流体。此外,还研究和讨论了其他相关参数对Casson-Careau纳米流体流动和传热特性的影响。结果表明,与Cu煤油纳米流体相比,Ag煤油纳米流体的温度场和热边界层是非常有效的。通过增加幂律指数和不稳定度参数来提高传热率。磁场参数可以降低表面摩擦系数和局部努塞尔数,增加排列角度可以提高表面摩擦系数。随着Weissenberg数的增加,摩擦系数降低,传热率增加。本研究的结果与先前的结果之间建立了非常好的一致性。目前的分析有助于扩大对Casson-Careau纳米流体在拉伸片上的热流体行为的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetohydrodynamic flow of dissipative casson-carreau nanofluid over a stretching sheet embedded in a porous medium under the influence of thermal radiation and variable internal heat generation
In this paper, finite difference method is used to study the combined effects of thermal radiation, inclined magnetic field and temperature-dependent internal heat generation on unsteady two-dimensional flow and heat transfer analysis of dissipative Casson-Carreau nanofluid over a stretching sheet embedded in a porous medium. In the study, kerosene is used as the base fluid which is embedded with the silver (Ag) and copper (Cu) nanoparticles. Also, effects of other pertinent parameters on the flow and heat transfer characteristics of the Casson-Carreau nanofluids are investigated and discussed. From the results, it is established that the temperature field and the thermal boundary layers of Ag-Kerosene nanofluid are highly effective when compared with the Cu-Kerosene nanofluid. Heat transfer rate is enhanced by increasing power-law index and unsteadiness parameter. Skin friction coefficient and local Nusselt number can be reduced by magnetic field parameter and they can be enhanced by increasing the aligned angle. Friction factor is depreciated and the rate of heat transfer increases by increasing the Weissenberg number. A very good agreement is established between the results of the present study and the previous results. The present analysis can help in expanding the understanding of the thermo-fluidic behaviour of the Casson-Carreau nanofluid over a stretching sheet.
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